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Human action capturing and classification

Author

Feng, Zhou

Date of Issue

2006

School

School of Computer Engineering

Abstract

In this report, a vision-based framework is proposed for learning and inferring occupant
activities at different levels. These levels range from short temporal interval movements, to intermediate level events and long temporal term activities. Our research is focused on using a combined tracking-classification framework for the unsupervised classification of human
action.
An initial comparative study was done to evaluate several existing foreground segmentation methods that employ background modeling. Our own probabilistic foreground-background segmentation method is proposed to extract human-centric reference frames.
Based on the human-centric reference frames, a principled analysis of the correspondence
problem leads to a novel probabilistic action representation called the correspondence-ambiguous
feature histogram array (CAFHA) that is robust to variations across similar actions. CAFHA is shown to be effective in unsupervised action classification and quasi real-time action inference.
A novel feature selection method is proposed to select the optimal features to improve the
CAFHA representation, such that the best discrimination between different action clusters may be found via unsupervised spectral clustering.
Finally, a number of potential future directions are proposed that are targeted at further improvements to our framework and creating new research methods required to recognize human activity at longer temporal scales.